As we move towards the electrification and hybridisation of our transport systems, and as innovations and appliances require ever more electrical energy to operate, there is an urgent need to opt for materials that deliver greater energy efficiency and higher power density.
Semi-conductor diamond technology is considered to be the ultimate semiconductor, surpassing the performance of all materials currently on the market, both old (Si, GaAs) and new (GaN and SiC). Diamond semiconductors are the key to going further, protecting better and consuming less. DIAMFAB technology is the solution to the energy transition challenges of today and tomorrow.
Involved in several fields related to diamond semiconductors and their applications, our company is an expert in the growth of epitaxial diamond layers and in the development of diamond electronic components
As a result, our high added-value diamond wafers with perfectly controlled electronic properties are ready for clean-room processing. To find out more, visit our products page.
Reduced impact from manufacture to use
Diamond contributes to energy efficiency by increasing the efficiency of devices and thus reducing the energy loss. It will also reduce vehicle energy consumption by reducing the weight of on-board power electronics and cooling system.
A diamond electronic component contributes to energy efficiency by increasing the efficiency of devices based on diamond components and thus reducing the energy lost. Reducing vehicle fuel consumption by cutting the weight of on-board power electronics.
Diamond, which is mainly composed of carbon, is manufactured at DIAMFAB from methane, a gas that can be produced naturally and biologically and whose resources are not limited.
Our diamond wafers are chemically inert. The diamond components will have a very long service life thanks to the extraordinary properties of this material, but if necessary, the diamond components can be recycled to separate the metals from the diamond.